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Welcome novices and perts alike.The purpose of this thread is to disseminate basic information and knowledge to those individuals new to the tape recording format or those wishing to refresh their expertise from earlier encounters with the rtr format.If you feel as though you don't quite know what you are doing, how to do what you need/want to do, or not quite sure what a term or phrase means then this is the thread for you.

Yes, this is Tape Recorders 101.We are trying to establish a data resource contained in one thread so that all the information/questions novices are likely to need/ask will be easy to locate whether it has to do with how to add leader, demagnetizing, to what 'tails out' means let alone how to do it, prepping your latest used tape for its' first spin. In other words everything.

While we novices may have the questions, we need you experts to throw us a life perserver in the way of an answer or a link. So if you know the ropes, please lend a hand as it can be very exasperating when you are just starting out.

To get things going, I would like to bring to your attention a nifty little book I recently purchased on Ebay entitled 'How to Make Good Tape Recordings'The Author is C.J. Le Bel and the publisher is Audio Devise Inc. copyright 1958.It is really a basic primer and would be a wonderful acquisition for your library especially if you are just starting out.If I can figure out how to scan the pages without breaking the spine, I will be happy to make it available for posting here on the TP.Do you have a resource that you know of or own which would be helpful to a TP novice?

In summation if you have a question, problem, curiosity about any aspect of 'taping', and do not know where to turn?All those 'stupid' questions you were reluctant to ask are not only welcome, but expected here.Aunty Em there really is no place like home!This is your thread!

I found a copy of "How to Make Good Tape Recordings" by googling it. Anyone interested in a copy can find it here;http://www.antiqbook.com/boox/vel/29704.shtmlI've had great results finding out of print stuff over on Amazon too.If any of the other members would like to jump in and write a bit about tape recorder basics, be my guest. Since we are trying to give new users their wings as soon a possible, please try and link to illustrations whenever possible. Remember, you can always edit your posts at a latter date. So if you're like me, and know that you've seen something that you really want to add, don't sweat it (you may have noticed that almost all my longer posts have been edited). And if any of you know that myself or others have made mistakes in our advice, please correct us. We want this stuff to be very accurate. If you feel weird about correcting someone publicly, PM them (I don't know about other members, but I use the Private Message feature all the time). There will be things that are peculiar to specific machines which no one without that machine will know about. That's important to include too.

I thought that I'd start this guide with a discussion of the heads since it's the interface between them and the tape that makes it all happen. It's also this interface that makes the difference between a poor performing machine and the very best. Almost every consumer or pro-sumer (machines that attempt to bridge the gap between consumer and professional machines) include recording and playback facilities. Most are 3 head machines and the usual order of the heads (in the direction of the tape during playback) is erase, record and playback. This order is done for a reason. When recording, erase head clears or deletes any sound that's already on the tape so the record head can imprint the music that you want on the tape. The playback head is last in line so you can hear or monitor what's just been recorded on the tape. For this post, we'll concentrate on the playback head only since it's the only one that's important for playing the Tape Project tapes.

Track configurations on headsBy ironbut at 2008-08-25 photo courtesy of Richard Hess 2001 http://www.richardhess.com/tape/index.htmIgnoring the embedded text regarding the 8 and 16 track machines( on another photo not included) we can see a good illustration of how the tracks on a four channel machine are spaced. The head in the middle is the record head and the one on the right is the playback head. These are 4 channel heads as opposed to stereo which of course is 2 channel. This head assembly would record and playback in one direction only on the entire width of the tape. If we were to number the tracks(channels) 1-4 starting with the top and counting down keep an eye on tracks 1 and 3. Most of the older tapes that you buy on eBay that are labeled 4 track (1/4 track) stereo. If we were to superimpose a photo of the heads of a 1/4 track machine you'd see that the tracks on those heads would line up with tracks 1 and 3. The one that lines up with track 1 is always the left channel and the one that lines up with track 3 is aways the right channel (this is important to remember for chasing down pesky problems so just remember that the top track is always the left channel in 1/4 track stereo ( I usually refer to 4 track stereo as 1/4 track to keep it clear that I'm not talking about 4 channel). When you play a 1/4 track tape and finish side one, you flip the tape over. So when you play side two, you're playing what was tracks 2 and 4. That's why a 1/4 track head's track marks look a little offset toward the top with a big space between them. So, a 1/4 track stereo tape does indeed have 4 tracks, but the it's divided into 2 tracks in one direction and 2 in the other direction. A 1/4 track head only has 2 tracks and relies on you to turn the tape over to reveal the other two tracks. If the tape were to slip up or down (on a 1/4 track tape), the other two tracks would be audible which would be pretty obvious because their sound would be in reverse. Of course, if the heads were to shift up or down it would also start to playback the other two tracks in reverse. As you might guess, the adjustment of the head up and down is important. Strangely enough, this head adjustment is called "height".

To continue on with our discussion of heads, the picture below is of the heads on a 1/2 track stereo Sony APR 5000 series machine. It has a somewhat specialized head assembly. At first we'll focus on the three heads we already know. Once again, we find the same configuration of erase head>record head>playback head (following the direction the tape travels in play-left to right). Although it's a little harder to see the tracks on the record and playback heads you can see a lighter space in the very middle of the head. This is the border between the two tracks. This is the format that the Tape Project tapes are recorded in. Once again, the left channel is on top (track 1) and the right channel is below the border. So, as you can see, the two tracks take up the full width (except for the border between them). Because the 2 tracks take up the entire width, the tape is unidirectional and unlike the 4 track stereo tapes that were mentioned in the first "heads" posting, if you were to flip the tape and play it, it would be in reverse (which is pretty fun about once). These tapes are best stored in what we call "tails out". All that means is that the tape is put away (without rewinding it/flipping it or any other tom foolery), just the way it is after playing it till the end. It's actually the most convenient way to deal with these tapes and good for the tapes to boot. Of course this means that before playing a "tails out" tape, you need to rewind it onto an empty reel on the left reel turntable. We'll get into tape storage/handling and care in a later post.By ironbut at 2008-08-25 What's particularly cool about this photo is all the other parts in a head assembly are clearly labeled. Starting on the far left is a metal guide. The guides do just what they say, but this is another case of less is better. The less guiding the guides have to do the better the sound. Any contact that the tape has with a guide creates friction and this friction creates noise. Minimizing this guiding is the result of proper adjustment done on the entire machine. This is a part of what Doc ( the wise guy dude ) does when he optimizes the tape path with his modifications. After the guide is a "time code" head. It applies a track into that border between the 2 tracks to sync sound to film or whatever. For the purposes of this discussion that's all I'll say about it (pretty easy since that's about all I do know!). After that comes the 2 track erase head and then the first in a pair of lifters. The lifters "lift" the tape above the heads during fast forward and rewind and retract during play. When the lifters are retracted the tape moves across the heads and through the guides to allow the heads to "read" the information on the tape. When engaged, the lifters prevent wear on the heads. All adjustments of the heads are done without the lifters engaged.The idler is only present on some machines although one can be added if there's room. The idler on this machine is used for sonic improvement and the use of these devices will be discussed when we talk more about tape handling and the effects it has on sound.The last device on this head assembly that we haven't addressed before is the tape sensor. There are several different types of sensors (this one appears to be opto-electric) but they all have the same basic function. They stop the machine at the end of a tape from fast forward, rewind or play when there is no tape breaking a light/sensor interaction (as in this one) or releasing a spring loaded arm (as most consumer/prosumer machines have). When you work on a machine you can "fool" any sensor into thinking there's tape present (and you'll be able to engage play, rewind, fast forward) with a piece of tape either blocking the light sensor or holding the mechanical arm up.If you look at the top of the head assembly, you'll notice a series of labeled holes. These are for access to the head adjustments. One of the main adjustments for a playback head is to keep the vertical orientation as close to 90 degrees as possible or needed. Imagine a tape with a quick, regular pulse recorded on it. If you could see it on the tape, you'd have a pattern that would look a little like a bar code down the length of the tape with this recording on it. If the playback head was tilted , you could see that part of each track of the head, would be "reading" this pulse before it should, while other parts of the head will be "reading" the pulse after it should be. If the tilt was extreme enough you'd also get pre and post echoing from the other track as it read it's track before or after the other. As you might guess, very slight tilts would result in phase issues with transients and images smeared. Adjusting the heads to eliminate any "tilt" is obviously central to the qualities of the outputs sound. This adjustment is called azimuth.

By ironbut at 2008-08-26OK, so you guys have seen pictures of the most often seen formats (1/4 track stereo and 1/2 track stereo). If you've studied the text, here's a little quiz. What is the format of the the machine whose heads are shown above? Well, here's some hints. The tracks are the orange colored slots and since there are two on each head, it's stereo. Another clue is that there's plenty of room between these tracks to put another track in between. From those two observations we can figure that this is probably a 1/4 track stereo machine. The main difference between this set up and what is usually seen on most 1/4 track stereo machines is the fourth head. One thing I haven't mentioned that would help, is that playback heads usually have a "shield" around them to reduce picking up hum from the rest of the machine (the record and erase heads are putting out a signal so they don't need shields). So the first and last heads are both playback. There are two main types of machines that have more than one playback head, a multi format machine such as the Technics RS1500 series and the Otari 5050 mk1 and 2 and auto reverse decks. This is one of the latter since as you can see, both of the playback heads have the same track width. The shields make it difficult to see the offset of the tracks but as I keep saying, the second head must be the erase head, the third is the record head and the fourth is the playback head. With an auto reverse deck, rather than having to flip the tape to play the "B" side, the machine plays backwards and switches which head is being accessed. Even though we can't really see the opposite offset of the two playback heads, it must be there. On one of the Technics machines (which playback in 1/2 and 1/4 track stereo) it depends on which model (1500 or 1506) on which head playback is first and which is last. A 1500 records in 1/2 track stereo and plays back in 1/2 and 1/4 track stereo. Once again the old rule applies. Erase>Record>Playback. If it records in 1/2 track stereo than the 4th head "must" be the 1/2 track playback head. If it's a 1506 which records in 1/4 track stereo, than the 4th head "must" be a 1/4 track playback head. There are machines that were pretty popular in the 1970-80's that throw a monkey wrench in this. Teac created quite a stir when they released a machine called the 3340s. The "S" stands for sync and the 3340s was a 4 channel machine (that's 4 channels in one direction like the head assembly shown in the first picture in the heads posts). Four channels was nothing new but this machine allowed each channel to be recorded at a time and the remaining channels could be added (overdubed) one at a time later. This doesn't seem too revolutionary since it would seem that it would only require switching of each record channel as you overdub each channel. If you look at the picture above and look at heads 3 and 4 (record and playback) you will see that there's a space between the two. Depending on how fast the tape is moving, there is a significant delay between the moment the the sound is recorded onto the tape and when you could hear it. Not only that, but if you're trying to play in time with the other channel/s which have already been recorded, you'd need to anticipate this delay and "hit" the beat before you could hear it. What Teac did was enable the record head to also act as a playback head too. So if drums was recorded on channel 1 you could switch channel 1 on the record head to playback and add a guitar track on channel 2 in perfect sync. Of course studios machines had been doing this ever since Les Paul introduced overdubbing decades earlier but this was the first affordable machine that could do this. The home studio was born and Otari and Teac's own Tascam dominated this market right up to today. We can be mighty thankful for this home studio market since lots of the Pro-sumer stereo machines were designed and bought to mix down these multi track recordings. Some of the members here probably own ex- home studio mastering machines.Another significant tape/tape deck format was mono. If you collect records, I'm sure you have at least a few mono recordings (enough are being currently produced to prompt cartridge builders to introduce mono versions of some of their stereo models). And if your into jazz, lots of Blue Notes (all the 1500 series ) were originally recorded in mono (can you imagine getting your hands on one of those!). There are actually two pretty popular mono formats. One was a full track (full tape width) and 2 track mono (I can't believe that no members jumped on me for forgetting this is the 2 track discussion). The 2 track mono is like a 1/4 track stereo and requires a tape flip to listen to the second side.There are, of course, lots of other formats such as 24, 16, and 8 channel and some early consumer machines had combination record/playback heads, heads that rotated or raised to have a 3 head 1/4 and 1/2 track playback machine. If anyone has questions regarding these, feel free to ask.

Not to devolve too far into head trivia, but there is a class of consumer machine that people may frequently encounter that is NOT compatible with TP tapes. This is the 2 head 1/4 track format where the record and play functions are in one head as you described in "sync" playback using the record head in the last post. In fact some Tascam multitrack (8, 16) use this design too so the signal is always in sync. It's just harder to optimize record play frequency response and impossible to monitor what you have just recorded on the fly without rewinding with a 2 head (erase, record/playback) system.

As an aside,yes trivia buffs, that is what the "tape monitor" button is for on many many pieces of audio equipment. It continues to send the program signal to the tape output jacks while allowing you to hear the tape recorder output that can then be switched between tape and input to compare recorded quality. Some may have forgotten or be too young...

But I digress.

I have also seen auto reverse 2 head designs that play and record both directions. These would have (from left to right) reverse record/play, reverse erase (remember, the tape would be moving the other direction), forward erase, forward record/play.

And I own a semi pro 2 head design 2 track 15 ips. (inches per second since we are explaining things here) old tube Crown recorder. So at least one 2 track stereo machine is not 3 head !

On one of the Technics machines (which playback in 1/2 and 1/4 track stereo) it depends on which model (1500 or 1506) on which head playback is first and which is last. A 1500 records in 1/2 track stereo and plays back in 1/2 and 1/4 track stereo. Once again the old rule applies. Erase>Record>Playback. If it records in 1/2 track stereo than the 4th head "must" be the 1/2 track playback head. If it's a 1506 which records in 1/4 track stereo, than the 4th head "must" be a 1/4 track playback head.

This feature of the Technics is atypical of multi format decks, in that the 4th head is in the main format of the machine and the opposite format head precedes all the others. As in 1/4 track play then 1/2 track erase, record, play. In most other dual format designs the opposite format additional playback head is after the primary format playback head. As in 1. 1/2 track erase, 2. 1/2 half track record, 3. 1/2 half track play, 4. 1/4 track play.

Hey Steve, thanks for those corrections/additions. In the 1/2 track post I was trying to show a Studer 807 picture with the Sony but I guess it was too big a file. It was set up for having the "extra" playback head last just like you said (Duh!). As I said before, I encourage any and all to post info that I've omitted or gotten just plain wrong (I'm pretty much doing this off the top of my head). This thread is, after all, to educate and not to mislead (like my other posts). Before I move on to a totally different subject, I'll wait a week so we can keep these in the same general area.

Ok,.. just a little head basics. I won't go into lots of technical stuff since this is a beginners guide. Heads are (see top illistration) made of laminations of alloys in 2 main parts. If you look at the bottom cross section, there's a right and left half. To orient you, the tape would be traveling left to right or right to left across the top of the bottom picture. You can see that the haves are made up of "C" cores just like some transformers. Between these cores is a small space called the gap (of all things). The gap is the muzzle of the head. It's where the magnetic flux is allowed to flow out of the head and magnetize the tape. There's a spacer placed into the gap and the whole thing is epoxied into a single piece. One thing to keep in mind with these transducers is the extreme tolerances that they are machine and polished to (we're talking micro inches here). And just like lot's of things here on the planet earth, the material that heads are made of are a balancing act of compromises. In this case, it's between permeability and hardness (output and wear characteristics).You might ask about the "glass" heads that Sony and Akai used in many of their latter models. I owned a couple of those and the problem with those heads is that they don't wear like a metal head which is usually pretty regular and smooth. They develop microscopic shearing of the crystals that surround the gap. After a while these develop into micro-chips (Hey,.. don't go there CV!) and can do real damage to your valuable tapes without you ever knowing it. Once they go bad, they have to be replaced. With metal heads after they get worn, they can still be resurfaced (lapped). If you look at the first illustration there's a area on the top labeled "Depth of Gap". When a head wears, a flat spot begins to appear where the tape makes contact. An extreme case of this can be seen in the photo on the right. A head can be relapped until the "depth of gap" begins to equal zero. Since the gap spacer is just that, a spacer, when the gap begins to open up like the track on the bottom of the photo. That head is history. When the wear isn't nearly as extreme as it is in the photo, the head can be reshaped and polished. How fast a head wears depends on several things. The hardness of the metal the head is made of.The speed that the machine is used (30 inch per second machines will wear out heads much faster than 7.5 ips machines)The abrasiveness of the tape that's used.The tape tension the machine is set at.The cleanliness of the tape path and tapes.Proper adjustment of the heads and guides.Temperature and humidity (heads will rust ).Most machines you'll come across aren't going to be as obviously worn at the picture above and to get a good idea of the wear you should use a magnifier of some sort and a good light. Look for the shinny flat spot (which all will have to some degree) and the real tell tail clue is grooving. This is something that you can feel. A head that needs relapping will have a ridge that you can feel with your fingernail (be very gentile, remember some of these heads are made of soft metals and you don't want any scratches on them). Even if you feel this ridge, it doesn't mean that the heads that worn either. Many heads have what's called "edge relief slots" cut into the surface right where these ridges would normally be found. They're there to keep the tape edge from being damaged by a ridge and also to prevent shedding oxide from being trapped along these ridges and escalating the tape and head wear. So, unless you get a good look at the head, you may just be feeling these slots. Also, it's important to see if the wear is even or not. That will tell you more about the condition and adjustment the heads and tape path were in during the majority of service. These are all great clues on how well the machine was cared for or if it was taken to a total hack for regular servicing. If you already own the machine, examining the head wear pattern will tell you if you need to take it in for adjustment. Worn heads can result in high frequency loss, excessive tape wear, inconsistent output (dropouts) and loss of overall output. As you can see from the open gap on the bottom of the head in the photo that this machine either needed to have the heads or guides adjusted. If the uneven wear (from top to bottom) was the result of the head being tilted back, the adjustment that would correct this (here it comes!) is called Zenith.Just a few more things about heads for this post.If you should need or choose to replace your playback head/s here's the main things you need to know when you choose one. The two spec's usually associated with them is DCR and fluxivity measured in nano Webers per meter (nWb-m). A service manual will have these figures. The fluxivity is a reference number when you wish to choose an alignment tape too. 185 to over 500 nWb-m heads can be found. Aside from those two figures, many times space available will be another determining factor for which heads can be used with a particular machine. Remember that with playback heads they almost always have a shield around them so the fit can be tight.

If you're interested in more info regarding relapping and head wear, John French is the man and his web site is full of info.http://jrfmagnetics.com/

Here's JFR's procedure when relapping heads:

In the JRF alignment procedure each head (erase, record and playback) isaligned for track placement (referenced to the tape guides and set within.0005), zenith (90 degree tilt), wrap (gap centered on tape contact scrubpattern), and azimuth (90 degrees). Head assemblies that do not have tapeguides attached to the head plate are mounted on our lab fixtures thatsimulate the recorder tape path (with guides for height reference).

Upon re-installation of our optically aligned assembly we recommend theuse of a test tape to optimize the azimuth for phase. This is requiredbecause of the tolerance differences between tape width (typically .246)and guide width clearance (.252). As you can see, there is about .006clearance which can allow the tape to enter the assembly incoming guidelow (or high) and exit the outgoing guide high (or low). This potentialtape path error along with the quality of the tape slittingand/or other components in the tape path (such as the pinch roller) willhave an effect in the azimuth that cannot be anticipated in the lab. Weare generally dead on about 70% of the time however, I always recommendthe use of a test tape.

OK, that's enough on heads exclusively. To begin with recording tape, I'm going to send you to the National Media Library for a bit. This is a document that's directed to libraries and other facilities that may be dealing with recording tape in their collection. It includes sections on open reel analog, video, and digital tape. You can pass over the sections dealing with other formats of magnetic tape, but you may also find some interesting things contained in these sections which will broaden your understanding.Those of us who are old enough will remember the days of large mainframe computers (being here in Silicon Valley I have lots of friends who worked with these at IBM and Control Data Corp). Some of the last major R&D that went into tape transports came from improvements in these data banks. Bear in mind while reading through this document that some figures given are for a worst case (tape lasting only 10 years for example) and we will later outline what would constitute such a worst case.There is a glossary and a tape care guide from Ampex but here again, there are items which aren't very relevant to our use (such at reel collars, which were the plastic "bands" that went around the circumference of a reel that kept dust from entering, mostly for computers).Please pay close attention to discussions of sticky tapes since getting your head around the "stick>slip" mechanism is important. This will be a recurring theme in latter discussions (it's really an extreme cast of very uneven friction).So here you go,.. "Take it away Dr. Bogart!)http://www.clir.org/pubs/reports/pub54/1introduction.html

By ironbut at 2008-09-13Once again, I start this episode with some pretty pictures. Nothing is too good for my special friends here at the Tape Project.The first two are pictures of the different way that light shines through acetate and polyester tape. Holding the reel up to a light will show that the acetate lets light through. This was important since acetate was the backing that was used for films in the early days. This is the easiest way to determine what you've got. The most important reason for identifying an acetate tape is that, as opposed to polyester backed tape, acetate will not stretch. The older the acetate tape is, the more brittle it will become. For that reason, very careful handling needs to be taken to avoid breaks. Some of the things that you should do is to attach long lengths of leader ( I now splice in 2 full turns of white leader tape and 5 full turns of RMGI recording tape that I have around, just like the Tape Project tapes are done). The reason for this is that there is "no" reason that I ever have to subject the acetate to starts and stops or handling at all. The other thing to avoid is rewinding or fast forwarding these tapes. Of course this can be time consuming with 1/2 track stereo tapes but like I said,.. avoid it if you can. This brings us to an often mentioned term of "gentile tape handling" or tape handling by a machine in general. This encompasses just about every adjustment on a machine and really starts in the design of the tape transport. For now, I'll just mention the basic adjustments that are directly related to the preservation of your tapes.Brakes- The brakes should slow the two reel as a team rather than fighting each other. If you turn the reels on your machine with it turned off (and the brakes engaged) you'll notice that the turntables have more resistance in one direction than the other. In fact, you'll find that the side that would be pulling the tape (take up reel) always has more braking applied than the side that would be supplying the tape (supply reel) no matter which direction the tape would be traveling in. You can imagine that if the opposite were true than breakage or stretching would occur. So, having the brake tension and the timing of the braking just right is important.Tape Tension- On most machines, it's the motion of the capstan that controls the flow of tape during play (I'll get more into the what and whys of capstans latter). The reel motors pull the tape in opposite directions applying tension to the tape. You can see this for yourself if you turn your machine on play without a tape threaded on it. The tension helps keep the tape flowing smoothly through the guides and creating an even tape pack as it goes. Correct adjustment of tape tension is important to prevent slippage as the tape is metered through the capstan/roller assembly. If you look at the third photo of "uneven wind" you will see one of the main causes of problem tapes. Tape pack is how evenly the tape appears from the side and indicates how each layer of tape is laid upon the layer underneath it. Anything that the tape comes in contact with on it's way from the supply reel to the take up reel effects tape pack. That includes air. In fact, one of the main causes of an uneven wind is air. On the sides of a tape reel there are holes of one sort or another. On the Tape Project reels we have cool looking circle/square/triangles. On plastic reels, they're more like the holes that form spokes but it's the holes that are important. These are called windage holes and for good reason. As the tape winds onto the layer beneath it, there is air pressure created between them. Of course there is much less pressure the slower the tape is laying down but the faster this happens, the more likely that the air pressure will begin to act against the tape tension. The windage holes help to release some of this pressure. But this is one of the reasons that a tape has a less even wind in fast forward or rewind. So what's so important about getting an even wind? The tension that's applied to the tape as it travels through the machine doesn't go away once the tape is on the reel and put away . It's still there pulling each layer of tape toward the center of the reel. If the tape is stored like the third picture, the edges that are unsupported are allowed to move farther toward the center then the rest of the tape. Even a relatively short time of storage in an uneven wind will give this curling a memory which may not show up except on playback. If you laid a strip of a "curled" tape on a flat surface you'd see that it won't lay flat. The oxide side is lifted off the surface by the curling and the same thing happens when it tries to lie flat against the head. This results in a loss of signal on that channel. And after the discussion of heads told you, if it's a 1/4 track tape, your left channel will be lower in volume or at least, have some high frequency losses. Other problems associated with an uneven wind is that when a tape is correctly wound, the oxide is protected by the other layers of tape on top of it. When the tape is sticking out on an uneven wind, the oxide on those layers are exposed to dust and impurities in the air. A correctly wound tape will appear flat and a little shinny through the windage holes. The best way to ensure that this happens and avoid "curling" is to store your tapes in a played condition rather than fast forward or rewind. If you look at the polyester example, it looks pretty good except for a couple of spots that appear as a dark lines. These were probably caused by stopping and restarting the tape at those points. A correctly adjusted machine will minimize these and except for very long storage, I wouldn't worry too much about this.Probably the most common problem with any tape is called drop outs. These appear as momentary drops of the volume on playback. The most common reason for this is dust or some other contaminant on the oxide surface which interrupts the tape/head contact. This can happen to even the best cared for tape and the narrower the track (1/4 track) the more obvious and distracting it will be. Luckily many times these contaminants can be removed. If you collect a lot of eBay tapes, you should keep a roll of Pelon cleaning tissue around. This can be obtained from US Recording Media and depending on your tape path, it can be held on the tape at any easily accessible spot and will gently clean the oxide side of your tape as it's moving. Since it's usually 7" reels that I have to clean, I use it just after the tape comes off of the supply reel. I use an old aluminum film container that I epoxied a thin suction cup on the bottom (which I kinda smooshed in) so when I stick it to the surface of my deck, it's almost flush. Then I tape some Pelon on it and play it at 15ips. I rotate the can a couple of times to keep clean Pelon on the oxide. (edit: I usually just use my finger on rewind now)Just one other thing to mention regarding acetate tape in particular, never bake it! You shouldn't have problems with sticky shed (as mentioned by Dr. Bogart) with this type of tape but if you do, baking will ruin acetate so another solution will need to be taken.Well, I think that's enough for this post. Next time I'll talk a little about other common problems.http://usrecordingmedia-store.stores.yahoo.net/quclwi1x15.html

Sorry, no pretty pictures to start this one out. There are a number of problems you'll encounter along the road especially if you've decided to collect older tapes from auction sites or elsewhere. One that you'll come across even if your tape collection is still small is called print through.Print through isn't something that's damaging to the tape itself but rather, it's distracting and interferes with your enjoyment of the music. It manifests itself as a pre or post echo on playback. This is similar to crosstalk that we discussed earlier in our discussion of heads and height adjustment. It's easy to tell the difference between the two since the sound of crosstalk is usually backwards while print though is not (this is on 1/4 track stereo). The sound recorded on the tape is printed on the tape by magnetizing the oxide particles. If a tape is left unplayed for very long periods, these oxide particles will begin to influence the oxide on the tape adjacent to it. A good analogy to this is the way that the early plasma screen TV's, if left with the same picture on it for 10's of hours, would be left with a ghostly image of that picture forever. Luckily, most print through isn't heard because the music intentionally printed on the tape usually completely obscures it. It's particularly distracting during quiet passages of music when loud sections have been superimposed upon it. There's no known cure for it but there are things that can be done to help to prevent it. The main thing to do is play your tapes. Even if you had the mythical perfect tape transport, since most tape will stretch, the odds that your tape would be wound exactly the same way twice is pretty much impossible. So do yourself a favor (in more ways than one) and listen to all your Tape Project tapes at least a few times a decade. That may sound funny but there may be some of the releases that just don't float your boat and in a decade, we'll have 100! Woo Hoo, won't that be cool! But of more immediate concern are old tapes you might buy. If you've collected for very long, I'm sure you've bought a few "dogs" with erased sections, bad splices and tons of dropouts. That will lead you to jump at tapes advertised as "still sealed" or "never played" and bid your kids college fund on them. Well, everyone has a personal tolerance level for different audio distortions and I have to admit that mine is pretty high for print through, but if your looking for tapes that don't have it, these unplayed tapes aren't for you. They're more likely to have audible print through than ones that have been played from time to time. You can reduce the level of this print through by repeated playing or rewinding. Some say that it can be reduced by over 2 dB but like I said, if the music is great, I can overlook it.Stretching The main reason for tape stretching is poor machine adjustment. When you push the play button on a tape deck, several things happen.1. The brakes release2. The reel motors engage3. The pinch roller/s push the tape to contact the capstanThe exact timing and order of these elements will vary from machine to machine but one thing is constant,.. improper adjustment of these will cause tape stretch. In actual fact, proper adjustment will cause tape stretch too but not enough to damage the tape. The thinner the tape backing, the more the tape will stretch so I usually try and avoid buying tapes that have multiple albums on them since that's how they fit them on one reel. A stretched tape can't be fixed and the "wow" sound that is evidence of this problem is usually accompanied by dropouts since the oxide usually sheds because of the increased length.Broken tape or bad splices If you buy really old tapes such as the acetate tapes discussed in the previous post, you'll eventually have to deal with a broken tape or fix splices from the previous owner/s which were made to either fix breaks or change song order or some other editing.

By ironbut at 2008-09-17This is a splicing block. To fix breaks, splices or add leader to the beginning or end of a tape you need one of these. As with most of the tools that I'll mention, US Recording Media sells them. You'll also need some splicing tape, single edged razor blades and a roll of leader. I was never taught how to use one of these but the basic use is pretty straightforward and the more you use one, the easier and better the result will be. As you can see, there are two slots that cross the length of the block. The slot on the left (diagonal) is for editing and the one closer to the middle is for general purpose. There's also a channel that runs the length and is made to fit the size tape that you purchased the block for (there are 1/4" to 2" blocks). I'll use the addition of leader as a example.Place the reel of tape on the left of the block. Place the end of the tape that you want to add leader to in the channel oxide down (no matter why you're using the splicing block, always place the tape oxide down)with around an inch past the middle slot. Press the tape securely into the channel.Place the reel of leader(or a pre cut length) to the right of the block and place the leader into the channel with and inch past the slot. Press the leader into the channel on top of the tape. Use the razor blade and insert into the slot above the tape/leader and slice it down (think paper cutter) cutting both. Use the corner of the blade as a pick and slide the leader end out of the way without moving the tape or the rest of the leader. Take 3/4" of splicing tape and line it up with the channel (this is the part that takes some practice) by looking straight down at the tape-leader joint. Apply a little pressure to the splicing tape and remove the spliced tape/leader from the block. Put the joint on a hard surface and if you're happy with the splice, apply more pressure to the splicing tape. If there's not splicing tape overlapping the tape/leader and is perfectly straight, congratulations! Measure off the amount of leader you want (I usually add at least 3 full turns) and snip it with a pair of scissors. If you're fixing a break or a bad (old) splice I use the same slot. The angled one is to make a smoother transition and you can try that one too but the tempo gets interrupted either way but you may prefer the angle. Other than that, there isn't that much difference just remember that the splicing tape is always applied to the back and not the oxide side of the tape.Mold or mildew This usually appears as a dusty white coating visible on the sides of the tape. For the most part, unless the tape is fairly valuable, it's best to discard it since the spores will contaminate your other tapes via your machine as you play them. The mold is a health hazard to boot. Just a word or two on the term tails out. With 1/2 track stereo tapes (like the Tape Project tapes) which are unidirectional, it is considered best practice to store the in a tails out configuration. This means that the tape must be rewound to listen to it. To do this you place an empty tape on the left reel platter and the full tape on the right. Thread the tape as the machine is normally done and rewind it fully. Now the tape is heads out and the full tape is on the left side (supply side). Now it will play correctly. One thing to keep in mind with 1/2 track stereo tapes is that no matter how you manipulate the reels, flipping it or moving it from side to side, rewind, play or fast forward, as long as you thread the tape the correct way, it will only play either correctly or in reverse. Nothing you can do will move the left channel to the right. That said, if you wish to change a heads out tape to a tails out one and you don't care what reel it's on, all you have to do is put the heads out tape on the left reel platter and put the reel you're going to keep it on, on the right. Play tape and now it's tails out. If you want to keep it on the original reel, you'll need a second empty reel and put it in place of the now empty original reel and rewind the tape onto that one. Now replace the empty reel on the right with the original reel and play the tape onto the original.Next Tape care tips.